Real-time sound synthesis and propagation for games

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Real-time sound synthesis and propagation for games

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Communications of the ACM archive
Volume 50 , Issue 7 (July 2007) table of contents
Creating a science of games

SPECIAL ISSUE: Creating a science of games table of contents

Pages: 66 - 73

Year of Publication: 2007

ISSN:0001-0782

Authors

Nikunj Raghuvanshi	University of North Carolina at Chapel Hill
Christian Lauterbach	University of North Carolina at Chapel Hill
Anish Chandak	University of North Carolina at Chapel Hill
Dinesh Manocha	University of North Carolina at Chapel Hill
Ming C. Lin	University of North Carolina at Chapel Hill

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ACM New York, NY, USA

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Downloads (6 Weeks): 35, Downloads (12 Months): 360, Citation Count: 1

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appendices and supplements abstract references cited by index terms collaborative colleagues

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ABSTRACT

Simulating the complete process of sound synthesis and propagation by exploiting aural perception makes the experience of playing games much more realistic and immersive.

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

	1	Fouad, H., Ballas, J., and Hahn, J. Perceptually based scheduling algorithms for real-time synthesis of complex sonic environments. In Proceedings of the International Conference on Auditory Display (Palo Alto, CA, Nov. 2--5). ICAD, 1997, 1--5.
	2	Thomas Funkhouser , Ingrid Carlbom , Gary Elko , Gopal Pingali , Mohan Sondhi , Jim West, A beam tracing approach to acoustic modeling for interactive virtual environments, Proceedings of the 25th annual conference on Computer graphics and interactive techniques, p.21-32, July 1998 [doi>10.1145/280814.280818]
	3	Krokstad, A., Strom, S., and Sorsdal, S. Calculating the acoustical room response by the use of a ray tracing technique. Journal of Sound and Vibration 8, 1 (July 1968), 118--125.
	4	Lauterbach, C., Chandak, A., and Manocha, D. Interactive sound rendering in complex and dynamic scenes using frustum tracing; gamma.cs.unc.edu/SOUND/.
	5	Lauterbach, C., Yoon, S.-E., Tuft, D., and Manocha, D. RT-DEFORM: Interactive ray tracing of dynamic scenes using BVHs. In Proceedings of the IEEE Symposium on Interactive Ray Tracing (Salt Lake City). IEEE Press, 2006, 39--46.
	6	James F. O'Brien , Chen Shen , Christine M. Gatchalian, Synthesizing sounds from rigid-body simulations, Proceedings of the 2002 ACM SIGGRAPH/Eurographics symposium on Computer animation, July 21-22, 2002, San Antonio, Texas [doi>10.1145/545261.545290]
	7	Nikunj Raghuvanshi , Ming C. Lin, Interactive sound synthesis for large scale environments, Proceedings of the 2006 symposium on Interactive 3D graphics and games, March 14-17, 2006, Redwood City, California [doi>10.1145/1111411.1111429]
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	9	Kees van den Doel , Paul G. Kry , Dinesh K. Pai, FoleyAutomatic: physically-based sound effects for interactive simulation and animation, Proceedings of the 28th annual conference on Computer graphics and interactive techniques, p.537-544, August 2001 [doi>10.1145/383259.383322]
	10	Kees van den Doel , Dinesh K. Pai, The Sounds of Physical Shapes, Presence: Teleoperators and Virtual Environments, v.7 n.4, p.382-395, August 1998 [doi>10.1162/105474698565794]
	11	Ingo Wald , Solomon Boulos , Peter Shirley, Ray tracing deformable scenes using dynamic bounding volume hierarchies, ACM Transactions on Graphics (TOG), v.26 n.1, p.6-es, January 2007 [doi>10.1145/1189762.1206075]